gencpp/test/SOA.cpp

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3.1 KiB
C++
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#if GEN_TIME
#define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
#define GEN_ENFORCE_STRONG_CODE_TYPES
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#define GEN_EXPOSE_BACKEND
#define GEN_BENCHMARK
#include "gen.hpp"
using namespace gen;
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Code gen_SOA( CodeStruct struct_def, s32 num_entries = 0 )
{
StringCached name = get_cached_string( token_fmt( "name", (StrC)struct_def->Name,
stringize( SOA_<name> )
));
Code
soa_entry = { struct_def.duplicate() };
soa_entry->Name = get_cached_string( name(Entry) );
constexpr s32 Num_Vars_Cap = 128;
local_persist Code var_memory[Num_Vars_Cap];
local_persist Arena var_arena;
do_once_start
var_arena = Arena::init_from_memory( var_memory, kilobytes(Num_Vars_Cap) );
do_once_end
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Array<CodeVar> vars = Array<CodeVar>::init( var_arena );;
CodeStruct soa = def_struct( name, def_struct_body( args( soa_entry ) ));
{
for ( Code struct_mem : struct_def->Body )
{
if ( struct_mem->Type == ECode::Variable )
{
CodeType var_type = struct_mem.cast<CodeVar>()->ValueType;
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StrC num_entries_str = to_StrC( str_fmt_buf( "%d", num_entries ) );
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CodeVar entry_arr = { nullptr };
if ( ! num_entries)
{
entry_arr = parse_variable( token_fmt( "type", (StrC)var_type->Name, "name", (StrC)struct_mem->Name,
stringize( Array<<type>> <name>; )
));
}
else
{
entry_arr = parse_variable( token_fmt( "type", (StrC)var_type->Name, "name", (StrC)struct_mem->Name, "num", num_entries_str,
stringize( <type> <name>[<num>]; )
));
}
vars.append( entry_arr );
soa->Body.append( entry_arr );
}
}
}
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CodeFn make;
{
make = parse_function( token_fmt("SOA_Type", (StrC)name,
stringize(
static
<SOA_Type> make( AllocatorInfo allocator )
{
<SOA_Type> soa = {};
}
)
));
if ( ! num_entries )
{
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for ( CodeVar member : vars )
{
Code arr_init = def_execution( token_fmt( "var_name", (StrC)member->Name, "var_type", (StrC)member->ValueType->Name,
stringize( soa.<var_name> = <var_type>::init( allocator ); )
));
make->Body.append( arr_init );
}
}
make->Body.append( def_execution( code( return soa; ) ));
}
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CodeFn get;
{
get = parse_function( code(
Entry get( s32 idx )
{
}
));
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String content = String::make( GlobalAllocator, "return\n{\n" );
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for ( CodeVar member : vars )
{
content.append_fmt( token_fmt( "var_name", (StrC)member->Name,
"<var_name>[idx],"
));
}
content.append( "};" );
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CodeExec ret = def_execution( content );
get->Body.append( ret );
}
soa->Body.append( make );
soa->Body.append( get );
soa->Body.raw()->validate_body();
vars.free();
return soa;
}
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void check_SOA()
{
log_fmt("\ncheck_SOA:");
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gen::init();
Builder soa_test; soa_test.open( "SOA.gen.hpp" );
soa_test.print( parse_using( code(
using u16 = unsigned short;
)));
soa_test.print( def_include( txt_StrC("gen.hpp")));
soa_test.print( def_using_namespace( name(gen) ) );
soa_test.print( gen_SOA(
parse_struct( code(
struct TestStruct
{
u8 A;
u16 B;
u32 C;
u64 D;
};
))
));
soa_test.write();
gen::deinit();
log_fmt(" passed!\n");
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}
#endif